SU1408281A1 - Gas analyzing installation - Google Patents

Abstract

The invention relates to the analysis of multicomponent gas mixtures and the control of technological processes, in particular, in blast furnace production. The goal is to improve the measurement accuracy and simplify installation. The gas analytical installation consists of a gas intake probe, a sample preparation device, a valve system and three gas analyzers for CO, C02 and Hj. To eliminate the error in the readings of the gas analyzer Hij introduced by CO and CO, there is a compensation device. To eliminate the effect of H on the readings of the second gas analyzer, the CO signals from the compensator device and from the second gas analyzer, CO, through large-scale converters, go to the multiplication device, the signal from which, together with the signal of the second gas analyzer, CO J goes to the adder and then to the recording unit. test gas mixtures. 1 silt C /

Description

The invention relates to the analysis of multicomponent gas mixtures and can be used to control technological processes, in particular, in blast furnace production.

The purpose of the invention is to improve the accuracy of measurements and simplify the scheme of a gas analytical installation.

The drawing shows a gas analytic installation.

The gas intake probe 1 is connected to the device 2 sample preparation and then through the solenoid valves 3 with the first gas analyzer 4 on the CO and the second gas analyzer 5 on the CO ,. The output of the second gas analyzer is connected to the input of the third gas analyzer 6 to H, the electrical output of the first gas analyzer 4 to the CO is connected to the first input of the compensation device 7 and to the second input of the recording device 8. The electric output of the second gas analyzer 5 to the CO is connected to the second input of the device 7 compensation, with the first input of the adder 9 and through the first large-scale converter 10 with the first input of the multiplier 11. Electrically, the output of the third gas analyzer 6 to HQ is connected to the third input of the compensation device 7, the output of the compensation device 7 is connected to the first input of the recording device 8 and through the second large-scale converter 12 s. the second input of the multiplication device 11, the output of the multiplication device 11 is connected to the second input of the adder 9. The electrical output of the adder 9 is connected to the third input of the registering device 8. To control the electromagnetic valves 3, a block 13 is intended

Before starting, the gas analysis plant is calibrated using certified gas mixtures from cylinders through open valves 3. Valve opening 3 is controlled by control unit 13.

Through the calibrated installation, the analyzed gas mixture is fed, which passes through the gas sampling probe 1 to the sample preparation device 2. Next, the mixture being analyzed is analyzed through valves 3 to the first gas analyzer 4 to CO and the second gas analyzer 5 to CO, from which code enters the input of the third gas analyzer 6 N / 1. Outputs of the first and second

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0

50

gas analyzers are connected to the discharge line.

The output signal of the first gas analyzer 4 to CO is fed to the second input of the recording device 8 and to the first input of the compensation device 7. The second and third inputs of the compensation device receive signals from the second gas analyzer 5 and from the third gas analyzer 6 to H, respectively.

The presence of CO and CO in the analyzed mixture affects the gas analyzer 6 5 by H, shifting its calibration characteristic down (reduces its readings). To eliminate this error, electrical signals from the first gas analyzer 4 for CO and the second gas analyzer 5 for CO are inserted into the Compensation Device 7, the aCO and dCO-g corrections signals are generated in the compensation device 7 and are added to the U H - 4CO - j flCO, j signal.

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At the output of the compensation device, the signal Uc, Ue, Ü1% is removed without affecting the readings of the third gas analyzer 6 on H and the content of CO and C0, j, which is fed to the first input of the recording device 8. The output signal of the second gas analyzer 5 to COi represented as coi + k and coh and hi where k is a constant coefficient. The term k UcOi X and j (is the error of the gas analyzer 5 per CO / 2. To eliminate this error, the signal from the output of the second gas analyzer 5 to 00 through the first large-scale converter 10 is fed to the first input of the multiplication device 11, and The second scale converter 12 is connected to the second input of the multiplication device 11. From the output of the multiplication device 11, the signal k is outputted to the second input of the adder 9- and the output signal from the second gas analyzer to the first input of the adder 9 5 pa at COi. The signals at the first and second inputs of the adder 9 are fed in antiphase.

Thus, in the adder

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U6i., X.c v UcOi-k-Uco UHi-k-Uto -HH.

At the output of the adder 9 receive

a signal that is applied to the third input of the recording device 8.

Claims (1)

Invention Formula A gas analyzing unit consisting of a gas intake probe connected to the sample preparation device and, through solenoid valves, to the first gas analyzer and the second gas analyzer, whose gas outlet is connected to the input of the third gas analyzer, to the inputs of all gas analyzers, through the solenoid valves switched by the control unit, are connected to the pressure measuring cylinders mi, characterized in that, in order to improve the measurement accuracy and simplify its circuit, the electrical output of the first the gas analyzer is connected to the input of the registering device and to the first input of the compensation device, the electric output of the second gas analyzer is connected to the second input of the compensation device and to the first input of the adder, and through the first large-scale converter to the first input of the multiplication device, the third output of the third gas analyzer is connected to the third input of the compensation device, the output device of the compensation device is connected to the first input of the recording device and through the second large-scale converter to the second input House multiplication device output. the multiplication device is connected to the second input of the adder, the output of which is connected to the third input of the recording device.